Your search keyword '"AURORA kinases"' showing total 5,719 results

1. Differential regulation of expression of the protein kinases DYRK1A and DYRK1B in cancer cells.

Author

Vorwerk, Vincent Andreas, Wilms, Gerrit, Babendreyer, Aaron, and Becker, Walter

Subjects

*AURORA kinases, *PROTEIN kinases, *CELL cycle, *CANCER cells, *KINASE inhibitors

Abstract

The protein kinases DYRK1A and DYRK1B are pivotal regulators of cell cycle progression by promoting cell cycle exit into quiescence. DYRK1B appears to play a more important role in cancer cell quiescence than DYRK1A, as evidenced by its overexpression or copy number variations in human tumour samples. Nonetheless, the stimuli driving DYRK1B upregulation and the potential divergence in expression patterns between DYRK1A and DYRK1B remain largely elusive. In the present study, we scrutinized the regulatory pathways modulating DYRK1B expression relative to DYRK1A in PANC-1 and A549 cancer cell lines across varying conditions. Serum deprivation, pharmacological mTOR inhibition and increased cell density resulted in the differential upregulation of DYRK1B compared to DYRK1A. We then aimed to assess the role of protein kinases MST1 and MST2, which are key transmitters of cell density dependent effects. Unexpectedly, exposure to the MST1/2 inhibitor XMU-MP-1 resulted in increased DYRK1B levels in A549 cells. Further investigation into the off-target effects of XMU-MP-1 unveiled the inhibition of Aurora kinases (AURKA and AURKB) as a potential causative factor. Consistently, AURK inhibitors VX-680 (tozasertib), MLN8237 (alisertib), AZD1152-HQPA (barasertib) resulted in the upregulation of DYRK1B expression in A549 cells. In summary, our findings indicate that the expression of DYRK1A and DYRK1B is differentially regulated in cancer cells and reveal that the kinase inhibitor XMU-MP-1 increases DYRK1B expression likely through off target inhibition of Aurora kinases. [ABSTRACT FROM AUTHOR]

Published

2024

2. Genetic interaction mapping of Aurora protein kinases in mouse oocytes.

Author

Blengini, Cecilia S. and Schindler, Karen

Subjects

AURORA kinases, SERINE/THREONINE kinases, PROTEIN kinases, CHROMOSOME segregation, CELL cycle

Abstract

The Aurora Kinases (AURKs) are a family of serine-threonine protein kinases critical for cell division. Somatic cells express only AURKA and AURKB. However, mammalian germ cells and some cancer cells express all three isoforms. A major question in the field has been determining the molecular and cellular changes when cells express three instead of two aurora kinases. Using a systematic genetic approach involving different Aurora kinase oocyte-specific knockout combinations, we completed an oocyte-AURK genetic interaction map and show that one genomic copy of Aurka is necessary and sufficient to support female fertility and oocyte meiosis. We further confirm that AURKB and AURKC alone cannot compensate for AURKA. These results highlight the importance of AURKA in mouse oocytes, demonstrating that it is required for spindle formation and proper chromosome segregation. Surprisingly, a percentage of oocytes that lack AURKB can complete meiosis I, but the quality of those eggs is compromised, suggesting a role in AURKB to regulate spindle assembly checkpoint or control the cell cycle. Together with our previous studies, we wholly define the genetic interplay among the Aurora kinases and reinforce the importance of AURKA expression in oocyte meiosis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Successful intracytoplasmic sperm injection in a macrozoospermia case with novel compound heterozygous aurora kinase C (AURKC) mutations.

Author

Jiang, Lingying, Kong, Feifei, Yao, Lv, Zhang, Fuxing, Wu, Lingfeng, Zhang, Haocheng, Yang, Guobing, Wang, Shasha, Jin, Xiaoying, Wang, Xiufen, Tong, Xiaomei, and Zhang, Songying

Subjects

*AURORA kinases, *INTRACYTOPLASMIC sperm injection, *SPERMATOZOA analysis, *ART therapy, *EXPRESSIVE arts therapy

Abstract

Purpose: To explore the application possibility of macrocephalic sperm from a patient with 100% macrocephalic sperm and AURKC gene variations. Methods: We diagnosed a case of macrozoospermia with 100% macrocephalic sperm and 39.5% multi-tailed spermatozoa by morphological analysis. Whole-exome sequencing (WES) was used for the patient and his wife. Sanger sequencing technique was used to verify the AURKC mutations in the patient's parents and his offspring. Sperm's ploidy was tested by flow cytometry. The couple asked for intra-couple ART therapy. Results: The patient presented novel compound heterozygous AURKC mutations (c.434C > T, c.497A > T) by WES. Sanger sequencing validation showed that variant of c.434C > T was observed in his father and c.497A > T was observed in his mother. Flow cytometry revealed that there existed a certain proportion of haploid sperm. Macrocephalic spermatozoa whose heads were smaller than the diameter of injection needle were selected for microinjection. A singleton pregnancy was achieved after embryo transfer. Prenatal diagnosis revealed that the fetus had normal chromosomal karyotype. Sanger sequencing technique showed that the fetus carried a c.434C > T mutation in one AURKC allele. A 3730 g healthy male fetus was delivered at term. Conclusion: Our study reported a successful live birth from a patient with definite AURKC gene variants and may provide insights for such patients to choose donor sperm or their own sperm. [ABSTRACT FROM AUTHOR]

Published

2024

4. Alisertib'in İyot-123 ile Radyoişaretlenme Potansiyelinin Araştırılması: Aurora A Kinaz İnhibitörünün Görüntülenme Potansiyelinin Değerlendirilmesi.

Author

UYGUR, Emre, SEZGİN, Ceren, YILDIZ AKDAĞ, Berna, ÖZBEY, Taylan, PARLAK, Yasemin, KARATAY, Kadriye Büşra, GÜMÜŞER, Fikriye Gül, and MÜFTÜLER, Fazilet Zümrüt BİBER

Subjects

AURORA kinases, MOLECULAR structure, THIN layer chromatography, PROTON magnetic resonance, X-ray crystallography technique

Abstract

Copyright of Afyon Kocatepe University Journal of Science & Engineering / Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi is the property of Afyon Kocatepe University, Faculty of Science & Literature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

5. The significant others of aurora kinase a in cancer: combination is the key.

Author

Nikhil, Kumar and Shah, Kavita

Subjects

AURORA kinases, MITOCHONDRIAL dynamics, DNA replication, DRUG target, CELL cycle

Abstract

AURKA is predominantly famous as an essential mitotic kinase. Recent findings have also established its critical role in a plethora of other biological processes including ciliogenesis, mitochondrial dynamics, neuronal outgrowth, DNA replication and cell cycle progression. AURKA overexpression in numerous cancers is strongly associated with poor prognosis and survival. Still no AURKA-targeted drug has been approved yet, partially because of the associated collateral toxicity and partly due to its limited efficacy as a single agent in a wide range of tumors. Mechanistically, AURKA overexpression allows it to phosphorylate numerous pathological substrates promoting highly aggressive oncogenic phenotypes. Our review examines the most recent advances in AURKA regulation and focuses on 33 such direct cancer-specific targets of AURKA and their associated oncogenic signaling cascades. One of the common themes that emerge is that AURKA is often involved in a feedback loop with its substrates, which could be the decisive factor causing its sustained upregulation and hyperactivation in cancer cells, an Achilles heel not exploited before. This dynamic interplay between AURKA and its substrates offers potential opportunities for targeted therapeutic interventions. By targeting these substrates, it may be possible to disrupt this feedback loop to effectively reverse AURKA levels, thereby providing a promising avenue for developing safer AURKA-targeted therapeutics. Additionally, exploring the synergistic effects of AURKA inhibition with its other oncogenic and/or tumor-suppressor targets could provide further opportunities for developing effective combination therapies against AURKA-driven cancers, thereby maximizing its potential as a critical drug target. [ABSTRACT FROM AUTHOR]

Published

2024

6. Bipartite binding interface recruiting HP1 to chromosomal passenger complex at inner centromeres.

Author

Kosuke Sako, Ayako Furukawa, Ryu-Suke Nozawa, Jun-ichi Kurita, Yoshifumi Nishimura, and Toru Hirota

Subjects

*AURORA kinases, *PLOIDY, *PASSENGERS

Abstract

Maintenance of ploidy depends on the mitotic kinase Aurora B, the catalytic subunit of the chromosomal passenger complex (CPC) whose proficient activity is supported by HP1 enriched at inner centromeres. HP1 is known to associate with INCENP of the CPC in a manner that depends on the PVI motif conserved across HP1 interactors. Here, we found that the interaction of INCENP with HP1 requires not only the PVI motif but also its C-terminally juxtaposed domain. Remarkably, these domains conditionally fold the β-strand (PVI motif) and the α-helix from a disordered sequence upon HP1 binding and render INCENP with high affinity to HP1. This bipartite binding domain termed SSH domain (Structure composed of Strand and Helix) is necessary and sufficient to attain a predominant interaction of HP1 with INCENP. These results identify a unique HP1-binding module in INCENP that ensures enrichment of HP1 at inner centromeres, Aurora B activity, and thereby mitotic fidelity. [ABSTRACT FROM AUTHOR]

Published

2024

7. PASPCR 2024 Annual Meeting, New York, NY.

Subjects

*BIOORGANIC chemistry, *GUANINE nucleotide exchange factors, *DNA repair, *NUCLEOTIDE sequencing, *AURORA kinases, *MELANOCORTIN receptors, *BRAF genes

Abstract

The document presents a comprehensive overview of various studies on melanoma research, skin pigmentation disorders, and skin health. It covers topics such as melanoma treatment, melanocyte nevi stabilization, vitiligo therapy, and the impact of genetic ancestry on skin pigmentation. The text emphasizes the importance of understanding the complex interactions within the skin and highlights potential therapeutic targets for various skin conditions. It also discusses the psychosocial impacts of melasma and the challenges in addressing dermal pigment in skin of color. The research presented provides valuable insights into skin health and the development of effective treatments. [Extracted from the article]

Published

2024

8. Deciphering the Complex Interplay of Long Noncoding RNAs and Aurora Kinases: Novel Insights into Breast Cancer Development and Therapeutic Strategies.

Author

Saadeldin, Mona Kamal, Curigliano, Giuseppe, and Abdel-Aziz, Amal Kamal

Subjects

*AURORA kinases, *NON-coding RNA, *BREAST cancer, *DISEASE incidence, *CARCINOGENESIS

Abstract

Breast cancer is the most common type of cancer globally and presents an escalating problem and a huge burden on societies. Several strategies are implemented in clinics to treat patients and prevent disease incidence. Efforts to understand the underlying causes of disease emergence are pivotal, and the latest examination of human transcriptomic studies showed the involvement of the noncoding RNA regulatory molecules in influencing both pathological and physiological conditions. Several molecular mechanisms are involved in the process and collaborate to develop tumor plasticity and drug resistance. In this review, we highlight for the first time the interplay between long noncoding RNAs and Aurora kinases in breast cancer and review the latest advances in the field in an attempt to pave the way for a better understanding of the course of the disease and to delineate the targets for treatment strategies in the clinic. [ABSTRACT FROM AUTHOR]

Published

2024

9. Improving Skin Cancer Treatment by Dual Drug Co-Encapsulation into Liposomal Systems—An Integrated Approach towards Anticancer Synergism and Targeted Delivery.

Author

Corte-Real, Margarida, Veiga, Francisco, Paiva-Santos, Ana Cláudia, and Pires, Patrícia C.

Subjects

*SKIN cancer, *SQUAMOUS cell carcinoma, *ANTINEOPLASTIC agents, *ZETA potential, *AURORA kinases, *CETUXIMAB, *PACLITAXEL, *QUERCETIN

Abstract

Skin cancer is a high-incidence complex disease, representing a significant challenge to public health, with conventional treatments often having limited efficacy and severe side effects. Nanocarrier-based systems provide a controlled, targeted, and efficacious methodology for the delivery of therapeutic molecules, leading to enhanced therapeutic efficacy, the protection of active molecules from degradation, and reduced adverse effects. These features are even more relevant in dual-loaded nanosystems, with the encapsulated drug molecules leading to synergistic antitumor effects. This review examines the potential of improving the treatment of skin cancer through dual-loaded liposomal systems. The performed analysis focused on the characterization of the developed liposomal formulations' particle size, polydispersity index, zeta potential, encapsulation efficiency, drug release, and in vitro and/or in vivo therapeutic efficacy and safety. The combination of therapeutic agents such as doxorubicin, 5-fluorouracil, paclitaxel, cetuximab, celecoxib, curcumin, resveratrol, quercetin, bufalin, hispolon, ceramide, DNA, STAT3 siRNA, Bcl-xl siRNA, Aurora-A inhibitor XY-4, 1-Methyl-tryptophan, and cytosine–phosphate–guanosine anionic peptide led to increased and targeted anticancer effects, having relevant complementary effects as well, including antioxidant, anti-inflammatory, and immunomodulatory activities, all relevant in skin cancer pathophysiology. The substantial potential of co-loaded liposomal systems as highly promising for advancing skin cancer treatment is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

10. Transcription Factor ETV4 Activates AURKA to Promote PD-L1 Expression and Mediate Immune Escape in Lung Adenocarcinoma.

Author

Yang, Ping, He, Shangxiang, Ye, Ling, and Weng, Heng

Subjects

*TRANSCRIPTION factors, *PEARSON correlation (Statistics), *PROGRAMMED death-ligand 1, *ENZYME-linked immunosorbent assay, *AURORA kinases

Abstract

Introduction: The occurrence and progression of lung adenocarcinoma (LUAD) impair T-cell immune responses, causing immune escape and subsequently affecting the efficacy of immunotherapy in patients. Aurora kinase A (AURKA) is upregulated in varying cancers, but its role in LUAD immune escape is elusive. This work attempted to explore molecular mechanisms of AURKA regulation in LUAD immune escape. Methods: Through bioinformatics analysis, AURKA level in LUAD was evaluated, and potential upstream transcription factors of AURKA were predicted using hTFtarget. ETS variant transcription factor 4 (ETV4) expression in LUAD was analyzed through The Cancer Genome Atlas. Pearson's correlation analysis was then utilized to test the correlation between AURKA and ETV4. Interaction and binding between AURKA and ETV4 were validated through dual-luciferase assay and chromatin immunoprecipitation. Quantitative reverse transcription-polymerase chain reaction (qRT-PCR) tested relative mRNA expression of AURKA and ETV4 in LUAD cells, cell counting kit-8 assayed cell viability, and Western blot analysis was conducted to determine the protein level of programmed death-ligand 1 (PD-L1). Coculture of LUAD cells with activated CD8+ T cells was carried out, and an LDH assay was used to assess the cytotoxicity of CD8+ T cells against LUAD cells. Interferon-γ (IFN-γ), interleukin-2 (IL-2), and tumor necrosis factor-α (TNF-α) levels in the coculture system were assessed by enzyme-linked immunosorbent assay (ELISA). Western blot assessed protein levels of JAK2, p-JAK2, STAT3, and p-STAT3. Results: Compared to normal tissues, AURKA and ETV4 were upregulated in tumor tissues, and AURKA presented a negative association with CD8+ T-cell immune infiltration but a positive association with PD-L1. qRT-PCR unveiled significantly upregulated mRNA of AURKA and ETV4 in LUAD cells compared to normal lung epithelial cells. Knockdown of AURKA significantly decreased cell viability and PD-L1 protein level in LUAD cells, enhanced cytotoxicity of CD8+ T cells against LUAD cells and IFN-γ, IL-2, and TNF-α expression, while overexpression of AURKA yielded opposite results. Furthermore, the knockdown of ETV4 could reverse the oncogenic characteristics of cells caused by AURKA overexpression. Conclusion: Our study illustrated that ETV4/AURKA axis promoted PD-L1 expression, suppressed CD8+ T-cell activity, and mediated immune escape in LUAD by regulating the JAK2/STAT3 signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

11. Aurora B kinase inhibition intensifies cisplatin cytotoxicity in MCF7 breast cancer cells.

Author

Askan, Ronahi and Gundogdu, Ramazan

Subjects

AURORA kinases, KINASE inhibitors, CISPLATIN, ANTINEOPLASTIC agents, BREAST cancer, CANCER cells

Abstract

Copyright of Ege Journal of Medicine is the property of Ege University, Faculty of Medicine and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

12. Plasmodium ARK2 and EB1 drive unconventional spindle dynamics, during chromosome segregation in sexual transmission stages.

Author

Zeeshan, Mohammad, Rea, Edward, Abel, Steven, Vukušić, Kruno, Markus, Robert, Brady, Declan, Eze, Antonius, Rashpa, Ravish, Balestra, Aurelia, Bottrill, Andrew, Brochet, Mathieu, Guttery, David, Tolić, Iva, Holder, Anthony, Le Roch, Karine, Tromer, Eelco, and Tewari, Rita

Subjects

Animals, Chromosome Segregation, Cell Nucleus Division, Plasmodium berghei, Cell Proliferation, Meiosis, Aurora Kinases, Eukaryota

Abstract

The Aurora family of kinases orchestrates chromosome segregation and cytokinesis during cell division, with precise spatiotemporal regulation of its catalytic activities by distinct protein scaffolds. Plasmodium spp., the causative agents of malaria, are unicellular eukaryotes with three unique and highly divergent aurora-related kinases (ARK1-3) that are essential for asexual cellular proliferation but lack most canonical scaffolds/activators. Here we investigate the role of ARK2 during sexual proliferation of the rodent malaria Plasmodium berghei, using a combination of super-resolution microscopy, mass spectrometry, and live-cell fluorescence imaging. We find that ARK2 is primarily located at spindle microtubules in the vicinity of kinetochores during both mitosis and meiosis. Interactomic and co-localisation studies reveal several putative ARK2-associated interactors including the microtubule-interacting protein EB1, together with MISFIT and Myosin-K, but no conserved eukaryotic scaffold proteins. Gene function studies indicate that ARK2 and EB1 are complementary in driving endomitotic division and thereby parasite transmission through the mosquito. This discovery underlines the flexibility of molecular networks to rewire and drive unconventional mechanisms of chromosome segregation in the malaria parasite.

Published

2023

13. Tabersonine enhances cisplatin sensitivity by modulating Aurora kinase A and suppressing epithelial--mesenchymal transition in triple-negative breast cancer.

Author

Xi Chen, Yuanliang Yan, Yuanhong Liu, Qiaoli Yi, and Zhijie Xu

Subjects

*TRIPLE-negative breast cancer, *AURORA kinases, *PROTEOMICS, *CISPLATIN, *WESTERN immunoblotting, *MOLECULAR docking, *PROTEIN microarrays

Abstract

Context: tabersonine has been investigated for its role in modulating inflammation-associated pathways in various diseases. however, its regulatory effects on triple-negative breast cancer (TNBC) have not yet been fully elucidated. Objective: this study uncovers the anticancer properties of tabersonine in TNBC cells, elucidating its role in enhancing chemosensitivity to cisplatin (CDDP). Materials and methods: after tabersonine (10 μM) and/or CDDP (10 μM) treatment for 48 h in BT549 and MDA-MB-231 cells, cell proliferation was evaluated using the cell counting kit-8 and colony formation assays. Quantitative proteomics, online prediction tools and molecular docking analyses were used to identify potential downstream targets of tabersonine. transwell and wound-healing assays and Western blot analysis were used to assess epithelial--mesenchymal transition (EMT) phenotypes. Results: tabersonine demonstrated inhibitory effects on tNBc cells, with IC50 values at 48 h being 18.1 μM for BT549 and 27.0 μM for MDA-MB-231. the combined treatment of CDDP and tabersonine synergistically suppressed cell proliferation in BT549 and MDA-MB-231 cells. enrichment analysis revealed that the proteins differentially regulated by tabersonine were involved in eMt-related signalling pathways. this combination treatment also effectively restricted EMT-related phenotypes. through the integration of online target prediction and proteomic analysis, aurora kinase a (AURKA) was identified as a potential downstream target of tabersonine. aURKa expression was reduced in tNBc cells post-treatment with tabersonine. Discussion and conclusions: tabersonine significantly enhances the chemosensitivity of CDDP in tNBc cells, underscoring its potential as a promising therapeutic agent for TNBC treatment. [ABSTRACT FROM AUTHOR]

Published

2024

14. Elevated expression of Aurora-A/AURKA in breast cancer associates with younger age and aggressive features.

Author

Ingebriktsen, L. M., Humlevik, R. O. C., Svanøe, A. A., Sæle, A. K. M., Winge, I., Toska, K., Kalvenes, M. B., Davidsen, B., Heie, A., Knutsvik, G., Askeland, C., Stefansson, I. M., Hoivik, E. A., Akslen, L. A., and Wik, E.

Subjects

GENE expression, BREAST cancer, IMMUNOSTAINING, AURORA kinases, DISEASE risk factors

Abstract

Background and objective: Aurora kinase A (AURKA) is reported to be overexpressed in breast cancer. In addition to its role in regulating cell cycle and mitosis, studies have reported AURKA involvements in oncogenic signaling in suppressing BRCA1 and BRCA2. We aimed to characterize AURKA protein and mRNA expression in a breast cancer cohort of the young, investigating its relation to clinico-pathologic features and survival, and exploring age-related AURKA-associated biological processes. Methods: Aurora kinase A immunohistochemical staining was performed on tissue microarrays of primary tumors from an in-house breast cancer cohort (n = 355) with information on clinico-pathologic data, molecular markers, and long and complete follow-up. A subset of the in-house cohort (n = 127) was studied by the NanoString Breast Cancer 360 expression panel for exploration of mRNA expression. METABRIC cohorts < 50 years at breast cancer diagnosis (n = 368) were investigated for differentially expressed genes and enriched gene sets in AURKA mRNA high tumors stratified by age. Differentially expressed genes and gene sets were investigated using network analyses and g:Profiler. Results: High Aurora kinase A protein expression associated with aggressive clinico-pathologic features, a basal-like subtype, and high risk of recurrence score. These patterns were confirmed using mRNA data. High AURKA gene expression demonstrated independent prognostic value when adjusted for traditional clinico-pathologic features and molecular subtypes. Notably, high AURKA expression significantly associated with reduced disease-specific survival within patients below 50 years, also within the luminal A subtype. Tumors of high AURKA expression showed gene expression patterns reflecting increased DNA damage activation and higher BRCAness score. Conclusions: Our findings indicate higher AURKA expression in young breast cancer, and associations between high Aurora-A/AURKA and aggressive tumor features, including higher tumor cell proliferation, and shorter survival, in the young. Our findings point to AURKA as a marker for increased DNA damage and DNA repair deficiency and suggest AURKA as a biomarker of clinical relevance in young breast cancer. [ABSTRACT FROM AUTHOR]

Published

2024

15. Repurposed AT9283 triggers anti-tumoral effects by targeting MKK3 oncogenic functions in Colorectal Cancer.

Author

Piastra, Valentina, Ganci, Federica, Sacconi, Andrea, Pranteda, Angelina, Allegretti, Matteo, Bernardini, Roberta, Serra, Martina, Lupo, Barbara, Dell'Aquila, Emanuela, Ferretti, Gianluigi, Pescarmona, Edoardo, Bartolazzi, Armando, Blandino, Giovanni, Trusolino, Livio, and Bossi, Gianluca

Subjects

*PROTEIN-tyrosine kinases, *CANCER cell motility, *AURORA kinases, *DRUG repositioning, *CELL migration

Abstract

Background: Colorectal cancer (CRC) is the third most common type of cancer and the second leading cause of cancer-related deaths worldwide, with a survival rate near to 10% when diagnosed at an advanced stage. Hence, the identification of new molecular targets to design more selective and efficient therapies is urgently required. The Mitogen activated protein kinase kinase 3 (MKK3) is a dual-specificity threonine/tyrosine protein kinase that, activated in response to cellular stress and inflammatory stimuli, regulates a plethora of biological processes. Previous studies revealed novel MKK3 roles in supporting tumor malignancy, as its depletion induces autophagy and cell death in cancer lines of different tumor types, including CRC. Therefore, MKK3 may represent an interesting new therapeutic target in advanced CRC, however selective MKK3 inhibitors are currently not available. Methods: The study involved transcriptomic based drug repurposing approach and confirmatory assays with CRC lines, primary colonocytes and a subset of CRC patient-derived organoids (PDO). Investigations in vitro and in vivo were addressed. Results: The repurposing approach identified the multitargeted kinase inhibitor AT9283 as a putative compound with MKK3 depletion-mimicking activities. Indeed, AT9283 drops phospho- and total-MKK3 protein levels in tested CRC models. Likely the MKK3 silencing, AT9283 treatment: i) inhibited cell proliferation promoting autophagy and cell death in tested CRC lines and PDOs; ii) resulted well-tolerated by CCD-18Co colonocytes; iii) reduced cancer cell motility inhibiting CRC cell migration and invasion; iv) inhibited COLO205 xenograft tumor growth. Mechanistically, AT9283 abrogated MKK3 protein levels mainly through the inhibition of aurora kinase A (AURKA), impacting on MKK3/AURKA protein–protein interaction and protein stability therefore uncovering the relevance of MKK3/AURKA crosstalk in sustaining CRC malignancy in vitro and in vivo. Conclusion: Overall, we demonstrated that the anti-tumoral effects triggered by AT9283 treatment recapitulated the MKK3 depletion effects in all tested CRC models in vitro and in vivo, suggesting that AT9283 is a repurposed drug. According to its good tolerance when tested with primary colonocytes (CCD-18CO), AT9283 is a promising drug for the development of novel therapeutic strategies to target MKK3 oncogenic functions in late-stage and metastatic CRC patients. [ABSTRACT FROM AUTHOR]

Published

2024

16. The role of Aurora kinase A in hepatocellular carcinoma: Unveiling the intriguing functions of a key but still underexplored factor in liver cancer.

Author

Grisetti, Luca, Garcia, Clarissa J. C., Saponaro, Anna A., Tiribelli, Claudio, and Pascut, Devis

Subjects

*AURORA kinases, *HEPATOCELLULAR carcinoma, *LIVER cancer, *TUMOR microenvironment, *CELL cycle

Abstract

Aurora Kinase A (AURKA) plays a central role as a serine/threonine kinase in regulating cell cycle progression and mitotic functions. Over the years, extensive research has revealed the multifaceted roles of AURKA in cancer development and progression. AURKA's dysregulation is frequently observed in various human cancers, including hepatocellular carcinoma (HCC). Its overexpression in HCC has been associated with aggressive phenotypes and poor clinical outcomes. This review comprehensively explores the molecular mechanisms underlying AURKA expression in HCC and its functional implications in cell migration, invasion, epithelial‐to‐mesenchymal transition, metastasis, stemness, and drug resistance. This work focuses on the clinical significance of AURKA as a diagnostic and prognostic biomarker for HCC. High levels of AURKA expression have been correlated with shorter overall and disease‐free survival in various cohorts, highlighting its potential utility as a sensitive prognostic indicator. Recent insights into AURKA's role in modulating the tumour microenvironment, particularly immune cell recruitment, may provide valuable information for personalized treatment strategies. AURKA's critical involvement in modulating cellular pathways and its overexpression in cancer makes it an attractive target for anticancer therapies. This review discusses the evidence about novel and selective AURKA inhibitors for more effective treatments for HCC. [ABSTRACT FROM AUTHOR]

Published

2024

17. Clinical analysis of 10 cases with subcutaneous panniculitis‐like T‐cell lymphoma and tissue AURKA expression.

Author

Zheng, Zhixin, Teng, Jinglei, Zeng, Ming, and Lu, Chun

Subjects

*AURORA kinases, *MALARIA, *LYMPHATIC metastasis, *DIAGNOSIS, *FISHER exact test

Abstract

Background: Due to its rarity, subcutaneous panniculitis‐like T‐cell lymphoma (SPTCL) is often misdiagnosed as benign panniculitis, and there are no standardized treatment guidelines for SPTCL. Aurora kinase A (AURKA) plays a regulatory role in both mitosis and meiosis. Cells treated with an AURKA inhibitor showed severe mitotic delay, which triggered apoptosis. Materials and Methods: Ten cases of SPTCL were collected in this study, and immunohistochemistry was performed to detect AURKA expression in the skin tissues of these cases. Control groups were set as follows: 1) 10 cases of inflammatory panniculitis; 2) 9 healthy individuals. Fisher's exact test was used to compare the positive rates of AURKA among various groups. Results: An average onset age of 27.3 years was found in 10 SPTCL cases. Clinically, these patients primarily presented with multiple subcutaneous nodules on the trunk and lower extremities, accompanied by intermittent high fever. One case showed lymph node metastasis, while no other distant organ metastasis being observed in any case. Pathologically, there was an infiltration of a large number of atypical lymphocytes within the fat lobules, characterized as a cytotoxic type. AURKA stanning was positive in 6 out of 10 SPTCL cases, while no positive cases were found in the control groups. Conclusion: 1) SPTCL predominantly affects young individuals and can be identified by nodular erythema on the trunk, intermittent high fever, and infiltration of atypical cytotoxic lymphocytes within fat lobules. 2) For early‐stage cases without metastasis, monotherapy with glucocorticoids or immunosuppressants such as cyclosporine can be considered. 3) High expression of AURKA in SPTCL tissues suggests that AURKA could be a potential biomarker for disease diagnosis, providing a theoretical basis for further targeted therapy. [ABSTRACT FROM AUTHOR]

Published

2024

18. Proteostasis perturbation of N-Myc leveraging HSP70 mediated protein turnover improves treatment of neuroendocrine prostate cancer.

Author

Xu, Pengfei, Yang, Joy C., Chen, Bo, Ning, Shu, Zhang, Xiong, Wang, Leyi, Nip, Christopher, Shen, Yuqiu, Johnson, Oleta T., Grigorean, Gabriela, Phinney, Brett, Liu, Liangren, Wei, Qiang, Corey, Eva, Tepper, Clifford G., Chen, Hong-Wu, Evans, Christopher P., Dall'Era, Marc A., Gao, Allen C., and Gestwicki, Jason E.

Subjects

HEAT shock proteins, AURORA kinases, PROSTATE cancer, TUMOR growth, STERIC hindrance

Abstract

N-Myc is a key driver of neuroblastoma and neuroendocrine prostate cancer (NEPC). One potential way to circumvent the challenge of undruggable N-Myc is to target the protein homeostasis (proteostasis) system that maintains N-Myc levels. Here, we identify heat shock protein 70 (HSP70) as a top partner of N-Myc, which binds a conserved "SELILKR" motif and prevents the access of E3 ubiquitin ligase, STIP1 homology and U-box containing protein 1 (STUB1), possibly through steric hindrance. When HSP70's dwell time on N-Myc is increased by treatment with the HSP70 allosteric inhibitor, STUB1 is in close proximity with N-Myc and becomes functional to promote N-Myc ubiquitination on the K416 and K419 sites and forms polyubiquitination chains linked by the K11 and K63 sites. Notably, HSP70 inhibition significantly suppressed NEPC tumor growth, increased the efficacy of aurora kinase A (AURKA) inhibitors, and limited the expression of neuroendocrine-related pathways. N-Myc fuels neuroendocrine prostate cancer. Here, the authors describe how targeting HSP70, a major N-Myc partner, coordinates with STUB1 to facilitate the degradation of N-Myc. This process slows neuroendocrine prostate cancer growth, improves the efficacy of Aurora Kinase A inhibitors, and reduces neuroendocrine pathway activity. [ABSTRACT FROM AUTHOR]

Published

2024

19. Hsa_circRNA_007630 knockdown delays colon cancer progression by modulation of ferroptosis via miR‐506‐3p/AURKA axis.

Author

Hu, Ying, Wu, Xiongjian, Tan, Xiaobin, and Zhang, Jingzhi

Subjects

COLON cancer, AURORA kinases, REACTIVE oxygen species, POLYMERASE chain reaction, CIRCULAR RNA

Abstract

Colon cancer contributes to high mortality rates internationally that has seriously endangered human health. Aurora kinase A (AURKA) served as a key molecule in colon cancer. However, its role of AURKA on regulating ferroptosis in colon cancer and their possible interactions with miRNAs and circRNAs remain still elusive. Comprehensive bioinformatics analysis after RNA‐sequencing was conducted to determine the differentially expressed genes (DEGs), ferroptosis‐related DEGs and hub genes. The direct relationship between miR‐506‐3p and hsa_circRNA_007630 or AURKA was predicted, then verified by dual luciferase reporter and quantitative real‐time polymerase chain reaction. The rescue experiments were conducted by cotransfection with si‐hsa_circRNA_007630, miR‐506‐3p inhibitor or pcDNA‐AURKA in HT29 cells. Erastin was used to induce ferroptosis in HT29 cells and validated by detecting levels of intracellular Fe2+, lipid reactive oxygen species, glutathione, malondialdehyde and ferroptosis markers expression. We screened a total of 331 DEGs, 26 ferroptosis‐related genes, among which 3 hub genes were identified through PPI network analysis. Therein, AURKA expression was elevated in colon cancer cells. Moreover, AURKA was targeted by miR‐506‐3p, and hsa_circRNA_007630 operated as miR‐506‐3p sponge. The effect of hsa_circRNA_007630 depletion on the inhibiting malignant phenotypes of HT29 cells was rescued by inhibition of miR‐506‐3p or AURKA overexpression. Additionally, AURKA reduced erastin‐induced ferroptosis in HT29 cells. Depletion of circRNA_007630 exerts as a suppressive role in colon cancer through a novel miR‐506‐3p/AURKA pathway related to ferroptosis, and might become a novel marker for colon cancer. [ABSTRACT FROM AUTHOR]

Published

2024

20. RNA demethylase FTO participates in malignant progression of gastric cancer by regulating SP1-AURKB-ATM pathway.

Author

Zeng, Xueliang, Lu, Yao, Zeng, Taohui, Liu, Wenyu, Huang, Weicai, Yu, Tingting, Tang, Xuerui, Huang, Panpan, Li, Bei, and Wei, Hulai

Subjects

*STOMACH cancer, *DEMETHYLASE, *AURORA kinases, *CANCER invasiveness, *ATAXIA telangiectasia, *DNA methyltransferases, *FAT

Abstract

Gastric cancer (GC) is the 5th most prevalent cancer and the 4th primary cancer-associated mortality globally. As the first identified m6A demethylase for removing RNA methylation modification, fat mass and obesity-associated protein (FTO) plays instrumental roles in cancer development. Therefore, we study the biological functions and oncogenic mechanisms of FTO in GC tumorigenesis and progression. In our study, FTO expression is obviously upregulated in GC tissues and cells. The upregulation of FTO is associated with advanced nerve invasion, tumor size, and LNM, as well as the poor prognosis in GC patients, and promoted GC cell viability, colony formation, migration and invasion. Mechanistically, FTO targeted specificity protein 1 and Aurora Kinase B, resulting in the phosphorylation of ataxia telangiectasia mutated and P38 and dephosphorylation of P53. In conclusion, the m6A demethylase FTO promotes GC tumorigenesis and progression by regulating the SP1-AURKB-ATM pathway, which may highlight the potential of FTO as a diagnostic biomarker for GC patients' therapy response and prognosis. RNA demethylase FTO promotes gastric cancer tumorigenesis and progression via the SP1-AURKB-ATM signaling pathway, shedding new light on the diagnoses and treatments for gastric cancer patients. [ABSTRACT FROM AUTHOR]

Published

2024

21. TonEBP inhibits ciliogenesis by controlling aurora kinase A and regulating centriolar satellite integrity.

Author

Chinbold, Batchingis, Kwon, Hyug Moo, and Park, Raekil

Subjects

*AURORA kinases, *HEAT shock proteins, *CELL cycle, *WNT signal transduction, *CENTRIOLES, *HISTONE deacetylase

Abstract

Background: Primary cilia on the surface of eukaryotic cells serve as sensory antennas for the reception and transmission in various cell signaling pathways. They are dynamic organelles that rapidly form during differentiation and cell cycle exit. Defects in these organelles cause a group of wide-ranging disorders called ciliopathies. Tonicity-responsive enhancer-binding protein (TonEBP) is a pleiotropic stress protein that mediates various physiological and pathological cellular responses. TonEBP is well-known for its role in adaptation to a hypertonic environment, to which primary cilia have been reported to contribute. Furthermore, TonEBP is involved in a wide variety of other signaling pathways, such as Sonic Hedgehog and WNT signaling, that promote primary ciliogenesis, suggesting a possible regulatory role. However, the functional relationship between TonEBP and primary ciliary formation remains unclear. Methods: TonEBP siRNAs and TonEBP-mCherry plasmids were used to examine their effects on cell ciliation rates, assembly and disassembly processes, and regulators. Serum starvation was used as a condition to induce ciliogenesis. Results: We identified a novel pericentriolar localization for TonEBP. The results showed that TonEBP depletion facilitates the formation of primary cilia, whereas its overexpression results in fewer ciliated cells. Moreover, TonEBP controlled the expression and activity of aurora kinase A, a major negative regulator of ciliogenesis. Additionally, TonEBP overexpression inhibited the loss of CP110 from the mother centrioles during the early stages of primary cilia assembly. Finally, TonEBP regulated the localization of PCM1 and AZI1, which are necessary for primary cilia formation. Conclusions: This study proposes a novel role for TonEBP as a pericentriolar protein that regulates the integrity of centriolar satellite components. This regulation has shown to have a negative effect on ciliogenesis. Investigations into cilium assembly and disassembly processes suggest that TonEBP acts upstream of the aurora kinase A - histone deacetylase 6 signaling pathway and affects basal body formation to control ciliogenesis. Taken together, our data proposes previously uncharacterized regulation of primary cilia assembly by TonEBP. [ABSTRACT FROM AUTHOR]

Published

2024

22. The Molecular Mechanism of Aurora-B Regulating Kinetochore-Microtubule Attachment in Mitosis and Oocyte Meiosis.

Author

Chen, Shanshan, Sun, Qiqi, Yao, Bo, and Ren, Yanping

Subjects

*AURORA kinases, *CELL division, *PHOSPHOPROTEIN phosphatases, *MEIOSIS, *KINETOCHORE

Abstract

Background: Aurora kinase B (Aurora-B), a member of the chromosomal passenger complex, is involved in correcting kinetochore-microtubule (KT-MT) attachment errors and regulating sister chromatid condensation and cytoplasmic division during mitosis. Summary: However, few reviews have discussed its mechanism in oocyte meiosis and the differences between its role in mitosis and meiosis. Therefore, in this review, we summarize the localization, recruitment, activation, and functions of Aurora-B in mitosis and oocyte meiosis. The accurate regulation of Aurora-B is essential for ensuring accurate chromosomal segregation and correct KT-MT attachments. Aurora-B regulates the stability of KT-MT attachments by competing with cyclin-dependent kinase 1 to control the phosphorylation of the SILK and RVSF motifs on kinetochore scaffold 1 and by competing with protein phosphatase 1 to influence the phosphorylation of NDC80 which is the substrate of Aurora-B. In addition, Aurora-B regulates the spindle assembly checkpoint by promoting the recruitment and activation of mitotic arrest deficient 2. Key Messages: This review provides a theoretical foundation for elucidating the mechanism of cell division and understanding oocyte chromosomal aneuploidy. [ABSTRACT FROM AUTHOR]

Published

2024

23. PTEN deficiency induces an extrahepatic cholangitis-cholangiocarcinoma continuum via aurora kinase A in mice.

Author

Yang, Yan, Wang, Jiale, Wan, Jianhua, Cheng, Qianqian, Cheng, Zenong, Zhou, Xueli, Wang, Oliver, Shi, Kelvin, Wang, Lingxiang, Wang, Bin, Zhu, Xiaohui, Chen, Jiaxiang, Feng, Dongfeng, Liu, Yang, Jahan-mihan, Yasmin, Haddock, Ashley N., Edenfield, Brandy H., Peng, Guang, Hohenstein, Jessica D., and McCabe, Chantal E.

Subjects

*AURORA kinases, *BILE ducts, *CELLULAR aging, *EPITHELIAL cells, *DISEASE progression

Abstract

The PTEN-AKT pathway is frequently altered in extrahepatic cholangiocarcinoma (eCCA). We aimed to evaluate the role of PTEN in the pathogenesis of eCCA and identify novel therapeutic targets for this disease. The Pten gene was genetically deleted using the Cre-loxp system in biliary epithelial cells. The pathologies were evaluated both macroscopically and histologically. The characteristics were further analyzed by immunohistochemistry, reverse-transcription PCR, cell culture, and RNA sequencing. Some features were compared to those in human eCCA samples. Further mechanistic studies utilized the conditional knockout of Trp53 and Aurora kinase A (Aurka) genes. We also tested the effectiveness of an Aurka inhibitor. We observed that genetic deletion of the Pten gene in the extrahepatic biliary epithelium and peri-ductal glands initiated sclerosing cholangitis-like lesions in mice, resulting in enlarged and distorted extrahepatic bile ducts in mice as early as 1 month after birth. Histologically, these lesions exhibited increased epithelial proliferation, inflammatory cell infiltration, and fibrosis. With aging, the lesions progressed from low-grade dysplasia to invasive carcinoma. Trp53 inactivation further accelerated disease progression, potentially by downregulating senescence. Further mechanistic studies showed that both human and mouse eCCA showed high expression of AURKA. Notably, the genetic deletion of Aurka completely eliminated Pten deficiency-induced extrahepatic bile duct lesions. Furthermore, pharmacological inhibition of Aurka alleviated disease progression. Pten deficiency in extrahepatic cholangiocytes and peribiliary glands led to a cholangitis-to-cholangiocarcinoma continuum that was dependent on Aurka. These findings offer new insights into preventive and therapeutic interventions for extrahepatic CCA. The aberrant PTEN-PI3K-AKT signaling pathway is commonly observed in human extrahepatic cholangiocarcinoma (eCCA), a disease with a poor prognosis. In our study, we developed a mouse model mimicking cholangitis to eCCA progression by conditionally deleting the Pten gene via Pdx1-Cre in epithelial cells and peribiliary glands of the extrahepatic biliary duct. The conditional Pten deletion in these cells led to cholangitis, which gradually advanced to dysplasia, ultimately resulting in eCCA. The loss of Pten heightened Akt signaling, cell proliferation, inflammation, fibrosis, DNA damage, epigenetic signaling, epithelial-mesenchymal transition, cell dysplasia, and cellular senescence. Genetic deletion or pharmacological inhibition of Aurka successfully halted disease progression. This model will be valuable for testing novel therapies and unraveling the mechanisms of eCCA tumorigenesis. [Display omitted] • A novel mouse model of eCCA was established by genetically deleting the Pten gene in extrahepatic biliary epithelial cells. • This mouse model recapitulates the progression of cholangitis to cholangiocarcinoma observed in humans. • Both biliary epithelial cells and peribiliary glandular cells can be the cell origin of eCCA. • Via both genetic and pharmacological approaches, Aurora kinase A was identified as an effective target to inhibit eCCA progression. • This preclinical model provides a tool to test novel therapies and elucidate the underlying mechanisms of eCCA. [ABSTRACT FROM AUTHOR]

Published

2024

24. Suppressing PD-L1 Expression via AURKA Kinase Inhibition Enhances Natural Killer Cell-Mediated Cytotoxicity against Glioblastoma.

Author

Nguyen, Trang T. T., Gao, Qiuqiang, Mun, Jeong-Yeon, Zhu, Zhe, Shu, Chang, Naim, Aaron, Rogava, Meri, Izar, Benjamin, Westhoff, Mike-Andrew, Karpel-Massler, Georg, and Siegelin, Markus D.

Subjects

*AURORA kinases, *BRAIN tumors, *CELL-mediated cytotoxicity, *GLIOBLASTOMA multiforme, *PROGRAMMED death-ligand 1

Abstract

Immunotherapies have shown significant promise as an impactful strategy in cancer treatment. However, in glioblastoma multiforme (GBM), the most prevalent primary brain tumor in adults, these therapies have demonstrated lower efficacy than initially anticipated. Consequently, there is an urgent need for strategies to enhance the effectiveness of immune treatments. AURKA has been identified as a potential drug target for GBM treatment. An analysis of the GBM cell transcriptome following AURKA inhibition revealed a potential influence on the immune system. Our research revealed that AURKA influenced PD-L1 levels in various GBM model systems in vitro and in vivo. Disrupting AURKA function genetically led to reduced PD-L1 levels and increased MHC-I expression in both established and patient-derived xenograft GBM cultures. This process involved both transcriptional and non-transcriptional pathways, partly implicating GSK3β. Interfering with AURKA also enhanced NK-cell-mediated elimination of GBM by reducing PD-L1 expression, as evidenced in rescue experiments. Furthermore, using a mouse model that mimics GBM with patient-derived cells demonstrated that Alisertib decreased PD-L1 expression in living organisms. Combination therapy involving anti-PD-1 treatment and Alisertib significantly prolonged overall survival compared to vehicle treatment. These findings suggest that targeting AURKA could have therapeutic implications for modulating the immune environment within GBM cells. [ABSTRACT FROM AUTHOR]

Published

2024

25. Neuropathological stage‐dependent proteome mapping of the olfactory tract in Alzheimer's disease: From early olfactory‐related omics signatures to computational repurposing of drug candidates.

Author

Cartas‐Cejudo, Paz, Cortés, Adriana, Lachén‐Montes, Mercedes, Anaya‐Cubero, Elena, Puerta, Elena, Solas, Maite, Fernández‐Irigoyen, Joaquín, and Santamaría, Enrique

Subjects

*DRUG repositioning, *ALZHEIMER'S disease, *GLYCOGEN synthase kinase, *SOMATOMEDIN C, *OLFACTORY receptors, *AURORA kinases, *GLYCOGEN synthase kinase-3

Abstract

Alzheimer's disease (AD) is the most common form of dementia, characterized by an early olfactory dysfunction, progressive memory loss, and behavioral deterioration. Albeit substantial progress has been made in characterizing AD‐associated molecular and cellular events, there is an unmet clinical need for new therapies. In this study, olfactory tract proteotyping performed in controls and AD subjects (n = 17/group) showed a Braak stage‐dependent proteostatic impairment accompanied by the progressive modulation of amyloid precursor protein and tau functional interactomes. To implement a computational repurposing of drug candidates with the capacity to reverse early AD‐related olfactory omics signatures (OMSs), we generated a consensual OMSs database compiling differential omics datasets obtained by mass‐spectrometry or RNA‐sequencing derived from initial AD across the olfactory axis. Using the Connectivity Map‐based drug repurposing approach, PKC, EGFR, Aurora kinase, Glycogen synthase kinase, and CDK inhibitors were the top pharmacologic classes capable to restore multiple OMSs, whereas compounds with targeted activity to inhibit PI3K, Insulin‐like growth factor 1 (IGF‐1), microtubules, and Polo‐like kinase (PLK) represented a family of drugs with detrimental potential to induce olfactory AD‐associated gene expression changes. To validate the potential therapeutic effects of the proposed drugs, in vitro assays were performed. These validation experiments revealed that pretreatment of human neuron‐like SH‐SY5Y cells with the EGFR inhibitor AG‐1478 showed a neuroprotective effect against hydrogen peroxide‐induced damage while the pretreatment with the Aurora kinase inhibitor Reversine reduced amyloid‐beta (Aβ)‐induced neurotoxicity. Taken together, our data pointed out that OMSs may be useful as substrates for drug repurposing to propose novel neuroprotective treatments against AD. [ABSTRACT FROM AUTHOR]

Published

2024

26. Role of AURKB Inhibition in Reducing Proliferation and Enhancing Effects of Radiotherapy in Triple-Negative Breast Cancer.

Author

Pellizzari, Sierra, Athwal, Harjot, Bonvissuto, Anne Claudine, and Parsyan, Armen

Subjects

TRIPLE-negative breast cancer, AURORA kinases, CANCER cell proliferation, BREAST cancer, IONIZING radiation

Abstract

Breast cancer is a leading cause of cancer-related deaths in females. Triple-negative breast cancer (TNBC) subtype is the most aggressive form of breast cancer that lacks biomarkers and effective targeted therapies. Its high degree of heterogeneity as well as innate and acquired resistance to treatment creates further barriers in achieving positive clinical outcomes in TNBC. Thus, development of novel treatment approaches in TNBC is of high clinical significance. Multimodality approaches with targeted agents and radiotherapy (RT) are promising for increasing efficacy of treatment and circumventing resistance. Here we examined anticancer effects of the Aurora Kinase B (AURKB) inhibitor AZD1152 as a single agent and in combination with RT using various TNBC cell lines, MDA-MB-468, MDA-MB-231 and SUM-159. We observed that AZD1152 alone effectively inhibited colony formation in TNBC cell lines. The combination of AZD1152 at IC50 concentrations together with ionizing radiation further reduced colony formation as compared to the single agent treatment. Our data support the notion that inhibition of the AURKB pathway is a promising strategy for treatment and radiosensitization of TNBC and warrants further translational studies. Plain Language Summary: Breast cancer is a leading cause of cancer death in women globally. The triple negative breast cancer subtype confers the poorest oncologic outcomes and requires novel treatment approaches. Development of new therapeutics as well as combination treatments with radiation are crucial. Aurora Kinase B (AURKB) protein regulates cell division that is often altered in breast cancer, contributing to tumor pathogenesis. This study examined the combination of an AURKB inhibitor, AZD1152, with radiation therapy, compared to single-agent treatments, in treating triple negative breast cancer cells. Our results show that AZD1152 and ionizing radiation alone were able to delay cancer cell proliferation effectively. However, their combination further significantly inhibited cell proliferation compared to single-agent treatments. This suggests that further studies on this combination would be valuable in developing novel treatment strategies for breast cancer. [ABSTRACT FROM AUTHOR]

Published

2024

27. Mitotic kinases are emerging therapeutic targets against metastatic breast cancer.

Author

Aquino-Acevedo, Alexandra N., Orengo-Orengo, Joel A., Cruz-Robles, Melanie E., and Saavedra, Harold I.

Subjects

*METASTATIC breast cancer, *AURORA kinases, *TRIPLE-negative breast cancer, *KINASES, *DRUG target

Abstract

This review aims to outline mitotic kinase inhibitors' roles as potential therapeutic targets and assess their suitability as a stand-alone clinical therapy or in combination with standard treatments for advanced-stage solid tumors, including triple-negative breast cancer (TNBC). Breast cancer poses a significant global health risk, with TNBC standing out as the most aggressive subtype. Comprehending the role of mitosis is crucial for understanding how TNBC advances from a solid tumor to metastasis. Chemotherapy is the primary treatment used to treat TNBC. Some types of chemotherapeutic agents target cells in mitosis, thus highlighting the need to comprehend the molecular mechanisms governing mitosis in cancer. This understanding is essential for devising targeted therapies to disrupt these mitotic processes, prevent or treat metastasis, and improve patient outcomes. Mitotic kinases like Aurora kinase A, Aurora Kinase B, never in mitosis gene A-related kinase 2, Threonine-Tyrosine kinase, and Polo-kinase 1 significantly impact cell cycle progression by contributing to chromosome separation and centrosome homeostasis. When these kinases go awry, they can trigger chromosome instability, increase cell proliferation, and activate different molecular pathways that culminate in a transition from epithelial to mesenchymal cells. Ongoing clinical trials investigate various mitotic kinase inhibitors as potential biological treatments against advanced solid tumors. While clinical trials against mitotic kinases have shown some promise in the clinic, more investigation is necessary, since they induce severe adverse effects, particularly affecting the hematopoietic system. [ABSTRACT FROM AUTHOR]

Published

2024

28. Predictive and prognostic value of aurora kinase A combined with tumor-infiltrating lymphocytes in medullary thyroid carcinoma.

Author

Zhongyu Wang, Fengli Guo, Guiming Fu, Zewei Zhao, Ning Kang, Xiukun Hou, and Xiangqian Zheng

Subjects

AURORA kinases, MEDULLARY thyroid carcinoma, TUMOR-infiltrating immune cells, PROGNOSIS, LYMPHATIC metastasis, IODINE isotopes

Abstract

Background: Aurora kinase A (AURKA) and tumor-infiltrating lymphocytes (TILs) are both known to play an essential role in tumorigenesis. However, the expression and prognostic value of the AURKA and TILs in medullary thyroid carcinoma (MTC) have not yet been investigated. Patients and methods: Surgical specimens and clinical data of 137 patients diagnosed with MTC were collected. AURKA expression and TILs infiltration were quantified by immunohistochemistry and hematoxylin-eosin staining. Subsequently, the prognostic value of AURKA expression and TIL infiltration in MTC was evaluated. Results: AURKA was highly expressed in patients with multifocal tumor, cervical lymph node metastasis, and an advanced TNM stage, indicating a high probability of recurrence. AURKA further exhibited a positive correlation with TILs (R = 0.44, P < 0.001). High expression of AURKA combined with a low numbers of TILs (AURKAhigh/TILslow) was identified as an independent prognostic factor for biochemical recurrence (odds ratio: 4.57, 95% confidence interval: 1.54--14.66, P < 0.01) and recurrence-free survival (hazard ratio: 3.64, 95% confidence interval: 1.52--8.71, P < 0.001). The combination of AURKA and TILs apparently improves the prognostic value for biochemical recurrence (area under the curve: 0.751) and structural recurrence (area under the curve: 0.836) of MTC. Notably, AURKAhigh/TILslow demonstrated a high value for prediction of distant or unresectable locoregional recurrence, with an overall accuracy of 86.9%. Conclusion: AURKAhigh is associated with the MTC malignancy. The combination of AURKAhigh/TILslow was identified as novel independent prognostic marker in MTC, predicting incurable disease recurrence with high accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

29. ReCorDE: a framework for identifying drug classes targeting shared vulnerabilities with applications to synergistic drug discovery.

Author

John, August J., Ghose, Emily T., Huanyao Gao, Luck, Meagan, Jeong, Dabin, Kalari, Krishna R., and Liewei Wang

Subjects

DRUG discovery, AURORA kinases, CYTOTOXINS, KINASE inhibitors, DRUG addiction

Abstract

Cancer is typically treated with combinatorial therapy, and such combinations may be synergistic. However, discovery of these combinations has proven difficult as brute force combinatorial screening approaches are both logistically complex and resource-intensive. Therefore, computational approaches to augment synergistic drug discovery are of interest, but current approaches are limited by their dependencies on combinatorial drug screening training data or molecular profiling data. These dataset dependencies can limit the number and diversity of drugs for which these approaches can make inferences. Herein, we describe a novel computational framework, ReCorDE (Recurrent Correlation of Drugs with Enrichment), that uses publicly-available cell line-derived monotherapy cytotoxicity datasets to identify drug classes targeting shared vulnerabilities across multiple cancer lineages; and we show how these inferences can be used to augment synergistic drug combination discovery. Additionally, we demonstrate in preclinical models that a drug class combination predicted by ReCorDE to target shared vulnerabilities (PARP inhibitors and Aurora kinase inhibitors) exhibits class-class synergy across lineages. ReCorDE functions independently of combinatorial drug screening and molecular profiling data, using only extensive monotherapy cytotoxicity datasets as its input. This allows ReCorDE to make robust inferences for a large, diverse array of drugs. In conclusion, we have described a novel framework for the identification of drug classes targeting shared vulnerabilities using monotherapy cytotoxicity datasets, and we showed how these inferences can be used to aid discovery of novel synergistic drug combinations. [ABSTRACT FROM AUTHOR]

Published

2024

30. An analysis of AURKB's prognostic and immunological roles across various cancers.

Author

Li, Jun, Cheng, Cui, and Zhang, Jiajun

Subjects

AURORA kinases, CELL cycle regulation, IMMUNOSTAINING, OVERALL survival, PROGRESSION-free survival, RENAL cell carcinoma

Abstract

Aurora kinase B (AURKB), an essential regulator in the process of mitosis, has been revealed through various studies to have a significant role in cancer development and progression. However, the specific mechanisms remain poorly understood. This study, therefore, seeks to elucidate the multifaceted role of AURKB in diverse cancer types. This study utilized bioinformatics techniques to examine the transcript, protein, promoter methylation and mutation levels of AURKB. The study further analysed associations between AURKB and factors such as prognosis, pathological stage, biological function, immune infiltration, tumour mutational burden (TMB) and microsatellite instability (MSI). In addition, immunohistochemical staining data of 50 cases of renal clear cell carcinoma and its adjacent normal tissues were collected to verify the difference in protein expression of AURKB in the two tissues. The results show that AURKB is highly expressed in most cancers, and the protein level of AURKB and the methylation level of its promoter vary among cancer types. Survival analysis showed that AURKB was associated with overall survival in 12 cancer types and progression‐free survival in 11 cancer types. Elevated levels of AURKB were detected in the advanced stages of 10 different cancers. AURKB has a potential impact on cancer progression through its effects on cell cycle regulation as well as inflammatory and immune‐related pathways. We observed a strong association between AURKB and immune cell infiltration, immunomodulatory factors, TMB and MSI. Importantly, we confirmed that the AURKB protein is highly expressed in kidney renal clear cell carcinoma (KIRC). Our study reveals that AURKB may be a potential biomarker for pan‐cancer and KIRC. [ABSTRACT FROM AUTHOR]

Published

2024

31. Discovery of a Novel Pseudo‐Natural Product Aurora Kinase Inhibitor Chemotype through Morphological Profiling.

Author

Wang, Lin, Yilmaz, Furkan, Yildirim, Okan, Schölermann, Beate, Bag, Sukdev, Greiner, Luca, Pahl, Axel, Sievers, Sonja, Scheel, Rebecca, Strohmann, Carsten, Squire, Christopher, Foley, Daniel J., Ziegler, Slava, Grigalunas, Michael, and Waldmann, Herbert

Subjects

*AURORA kinases, *KINASE inhibitors, *INDOLE

Abstract

The pseudo‐natural product (pseudo‐NP) concept aims to combine NP fragments in arrangements that are not accessible through known biosynthetic pathways. The resulting compounds retain the biological relevance of NPs but are not yet linked to bioactivities and may therefore be best evaluated by unbiased screening methods resulting in the identification of unexpected or unprecedented bioactivities. Herein, various NP fragments are combined with a tricyclic core connectivity via interrupted Fischer indole and indole dearomatization reactions to provide a collection of highly three‐dimensional pseudo‐NPs. Target hypothesis generation by morphological profiling via the cell painting assay guides the identification of an unprecedented chemotype for Aurora kinase inhibition with both its relatively highly 3D structure and its physicochemical properties being very different from known inhibitors. Biochemical and cell biological characterization indicate that the phenotype identified by the cell painting assay corresponds to the inhibition of Aurora kinase B. [ABSTRACT FROM AUTHOR]

Published

2024

32. Cross-Reactivity of N6AMT1 Antibodies with Aurora Kinase A: An Example of Antibody-Specific Non-Specificity.

Author

Brūmele, Baiba, Serova, Evgeniia, Lupp, Aleksandra, Suija, Mihkel, Mutso, Margit, and Kurg, Reet

Subjects

*AURORA kinases, *MOLECULAR biology, *RECOMBINANT proteins, *CROSS reactions (Immunology), *IMMUNOGLOBULINS, *METHYLGUANINE

Abstract

Primary antibodies are one of the main tools used in molecular biology research. However, the often-occurring cross-reactivity of primary antibodies complicates accurate data analysis. Our results show that three commercial polyclonal antibodies raised against N-6 adenine-specific DNA methyltransferase 1 (N6AMT1) strongly cross-react with endogenous and recombinant mitosis-associated protein Aurora kinase A (AURKA). The cross-reactivity was verified through immunofluorescence, immunoblot, and immunoprecipitation assays combined with mass spectrometry. N6AMT1 and AURKA are evolutionarily conserved proteins that are vital for cellular processes. Both proteins share the motif ENNPEE, which is unique to only these two proteins. We suggest that N6AMT1 antibodies recognise this motif in N6AMT1 and AURKA proteins and exhibit an example of "specific" non-specificity. This serves as an example of the importance of controls and critical data interpretation in molecular biology research. [ABSTRACT FROM AUTHOR]

Published

2024

33. Involvement of Endolysosomes and Aurora Kinase A in the Regulation of Amyloid β Protein Levels in Neurons.

Author

Afghah, Zahra, Khan, Nabab, Datta, Gaurav, Halcrow, Peter W., Geiger, Jonathan D., and Chen, Xuesong

Subjects

*AURORA kinases, *CATHEPSIN D, *AMYLOID, *NEURONS, *AMYLOID plaque, *TUBULINS, *AMYLOID beta-protein precursor

Abstract

Aurora kinase A (AURKA) is a serine/threonine-protein kinase that regulates microtubule organization during neuron migration and neurite formation. Decreased activity of AURKA was found in Alzheimer's disease (AD) brain samples, but little is known about the role of AURKA in AD pathogenesis. Here, we demonstrate that AURKA is expressed in primary cultured rat neurons, neurons from adult mouse brains, and neurons in postmortem human AD brains. AURKA phosphorylation, which positively correlates with its activity, is reduced in human AD brains. In SH-SY5Y cells, pharmacological activation of AURKA increased AURKA phosphorylation, acidified endolysosomes, decreased the activity of amyloid beta protein (Aβ) generating enzyme β-site amyloid precursor protein cleaving enzyme (BACE-1), increased the activity of the Aβ degrading enzyme cathepsin D, and decreased the intracellular and secreted levels of Aβ. Conversely, pharmacological inhibition of AURKA decreased AURKA phosphorylation, de-acidified endolysosomes, decreased the activity of cathepsin D, and increased intracellular and secreted levels of Aβ. Thus, reduced AURKA activity in AD may contribute to the development of intraneuronal accumulations of Aβ and extracellular amyloid plaque formation. [ABSTRACT FROM AUTHOR]

Published

2024

34. Development and therapeutic evaluation of 5D3(CC-MLN8237)3.2 antibody-theranostic conjugates for PSMA-positive prostate cancer therapy.

Author

Liatsou, Ioanna, Assefa, Betelhem, Liyanage, Wathsala, Surasinghe, Sharmane, Nováková, Zora, Bařinka, Cyril, Gabrielson, Kathleen, Raman, Venu, Artemov, Dmitri, and Hapuarachchige, Sudath

Subjects

BLOOD cell count, PROSTATE cancer, MONOCLONAL antibodies, AURORA kinases, CANCER treatment, BLOOD testing, HEMATOXYLIN & eosin staining, ANDROGEN receptors

Abstract

Prostate cancer (PC) is an aggressive cancer that can progress rapidly and eventually become castrate-resistant prostate cancer (CRPC). Stage IV metastatic castrate-resistant prostate cancer (mCRPC) is an incurable late-stage cancer type with a low 5-year overall survival rate. Targeted therapeutics such as antibody-drug conjugates (ADCs) based on high-affinity monoclonal antibodies and potent drugs conjugated via smart linkers are being developed for PC management. Conjugating further with in vitro or in vivo imaging agents, ADCs can be used as antibody-theranostic conjugates (ATCs) for diagnostic and image-guided drug delivery. In this study, we have developed a novel ATC for PSMA (+) PC therapy utilizing (a) anti-PSMA 5D3 mAb, (b) Aurora A kinase inhibitor, MLN8237, and (c) for the first time using tetrazine (Tz) and transcyclooctene (TCO) click chemistry-based conjugation linker (CC linker) in ADC development. The resulting 5D3(CC-MLN8237)3.2 was labeled with suitable fluorophores for in vitro and in vivo imaging. The products were characterized by SDS-PAGE, MALDI-TOF, and DLS and evaluated in vitro by optical imaging, flow cytometry, and WST-8 assay for cytotoxicity in PSMA (+/-) cells. Therapeutic efficacy was determined in human PC xenograft mouse models following a designed treatment schedule. After the treatment study animals were euthanized, and toxicological studies, complete blood count (CBC), blood clinical chemistry analysis, and H&E staining of vital organs were conducted to determine side effects and systemic toxicities. The IC50 values of 5D3(CC-MLN8237)3.2-AF488 in PSMA (+) PC3-PIP and PMSA (-) PC3-Flu cells are 8.17 nM and 161.9 nM, respectively. Pure MLN8237 shows 736.9 nM and 873.4 nM IC50 values for PC3-PIP and PC3-Flu cells, respectively. In vivo study in human xenograft mouse models confirmed high therapeutic efficacy of 5D3(CC-MLN8237)3.2- CF750 with significant control of PSMA (+) tumor growth with minimal systemic toxicity in the treated group compared to PSMA (-) treated and untreated groups. Approximately 70% of PSMA (+) PC3-PIP tumors did not exceed the threshold of the tumor size in the surrogate Kaplan-Meyer analysis. The novel ATC successfully controlled the growth of PSMA (+) tumors in preclinical settings with minimal systemic toxicities. The therapeutic efficacy and favorable safety profile of novel 5D3(CC-MLN8237)3.2 ATC demonstrates their potential use as a theranostic against aggressive PC. [ABSTRACT FROM AUTHOR]

Published

2024

35. Mitotic Kinases Aurora-A, Plk1, and Cdk1 Interact with Elk-1 Transcription Factor through the N-Terminal Domain.

Author

Uyar, Oya Arı, Babal, Yigit Koray, Yılmaz, Bayram, and Kurnaz, Isil Aksan

Subjects

*TRANSCRIPTION factors, *AURORA kinases, *SERUM response factor, *KINASES, *BLOOD proteins, *PROTEIN kinases

Abstract

Elk-1 is a member of the ETS domain transcription factor superfamily that is phosphorylated upon mitogen-activated protein kinase (MAPK) pathway activation, which in turn regulated its interaction with partner protein serum response factor (SRF), leading to formation of a ternary complex with DNA. It has previously been reported that Elk-1 interacts with a mitotic kinase Aurora-A, although the mechanisms or the relevance of this interaction was unclear. Elk-1 was also reported to be phosphorylated by CDK5 on Thr417 residue. In this study, we show for the first time that this transcription factor interacts not only with Aurora-A but also with other mitotic kinases Aurora-B, Plk1, and Cdk1, and we define the interaction domain on Elk-1 to the first N-terminal 205 amino acids. We also describe putative phosphorylation sites of these mitotic kinases on Elk-1 and show that Elk-1 peptides containing these residues get phosphorylated by the mitotic kinases in in vitro kinase assays. We also perform bioinformatic analysis of mitotic phosphoproteomes and determine potential interaction partners for Elk-1 in Plk or Aurora phosphoproteomes. We propose that understanding the dynamic phosphorylation of Elk-1 by mitotic kinases is important and that it can present a novel target for anticancer strategies. [ABSTRACT FROM AUTHOR]

Published

2024

36. QSAR Study, Molecular Docking and Molecular Dynamic Simulation of Aurora Kinase Inhibitors Derived from Imidazo[4,5- b ]pyridine Derivatives.

Author

Tian, Yang-Yang, Tong, Jian-Bo, Liu, Yuan, and Tian, Yu

Subjects

*IMIDAZOPYRIDINES, *AURORA kinases, *MOLECULAR docking, *PYRIDINE derivatives, *DYNAMIC simulation, *SCIENTIFIC method

Abstract

Cancer is a serious threat to human life and social development and the use of scientific methods for cancer prevention and control is necessary. In this study, HQSAR, CoMFA, CoMSIA and TopomerCoMFA methods are used to establish models of 65 imidazo[4,5-b]pyridine derivatives to explore the quantitative structure-activity relationship between their anticancer activities and molecular conformations. The results show that the cross-validation coefficients q2 of HQSAR, CoMFA, CoMSIA and TopomerCoMFA are 0.892, 0.866, 0.877 and 0.905, respectively. The non-cross-validation coefficients r2 are 0.948, 0.983, 0.995 and 0.971, respectively. The externally validated complex correlation coefficients r2pred of external validation are 0.814, 0.829, 0.758 and 0.855, respectively. The PLS analysis verifies that the QSAR models have the highest prediction ability and stability. Based on these statistics, virtual screening based on R group is performed using the ZINC database by the Topomer search technology. Finally, 10 new compounds with higher activity are designed with the screened new fragments. In order to explore the binding modes and targets between ligands and protein receptors, these newly designed compounds are conjugated with macromolecular protein (PDB ID: 1MQ4) by molecular docking technology. Furthermore, to study the nature of the newly designed compound in dynamic states and the stability of the protein-ligand complex, molecular dynamics simulation is carried out for N3, N4, N5 and N7 docked with 1MQ4 protease structure for 50 ns. A free energy landscape is computed to search for the most stable conformation. These results prove the efficient and stability of the newly designed compounds. Finally, ADMET is used to predict the pharmacology and toxicity of the 10 designed drug molecules. [ABSTRACT FROM AUTHOR]

Published

2024

37. Antitumoral Activity of the Universal Methyl Donor S -Adenosylmethionine in Glioblastoma Cells.

Author

Mosca, Laura, Pagano, Cristina, Tranchese, Roberta Veglia, Grillo, Roberta, Cadoni, Francesca, Navarra, Giovanna, Coppola, Laura, Pagano, Martina, Mele, Luigi, Cacciapuoti, Giovanna, Laezza, Chiara, and Porcelli, Marina

Subjects

*DNA repair, *AURORA kinases, *HOMOLOGOUS recombination, *GLIOBLASTOMA multiforme, *METHYLGUANINE, *RECOMBINANT DNA, *CELL cycle

Abstract

Glioblastoma (GBM), the most frequent and lethal brain cancer in adults, is characterized by short survival times and high mortality rates. Due to the resistance of GBM cells to conventional therapeutic treatments, scientific interest is focusing on the search for alternative and efficient adjuvant treatments. S-Adenosylmethionine (AdoMet), the well-studied physiological methyl donor, has emerged as a promising anticancer compound and a modulator of multiple cancer-related signaling pathways. We report here for the first time that AdoMet selectively inhibited the viability and proliferation of U87MG, U343MG, and U251MG GBM cells. In these cell lines, AdoMet induced S and G2/M cell cycle arrest and apoptosis and downregulated the expression and activation of proteins involved in homologous recombination DNA repair, including RAD51, BRCA1, and Chk1. Furthermore, AdoMet was able to maintain DNA in a damaged state, as indicated by the increased γH2AX/H2AX ratio. AdoMet promoted mitotic catastrophe through inhibiting Aurora B kinase expression, phosphorylation, and localization causing GBM cells to undergo mitotic catastrophe-induced death. Finally, AdoMet inhibited DNA repair and induced cell cycle arrest, apoptosis, and mitotic catastrophe in patient-derived GBM cells. In light of these results, AdoMet could be considered a potential adjuvant in GBM therapy. [ABSTRACT FROM AUTHOR]

Published

2024

38. Identification of AURKA as a Biomarker Associated with Cuproptosis and Ferroptosis in HNSCC.

Author

Jia, Xiao, Tian, Jiao, Fu, Yueyue, Wang, Yiqi, Yang, Yang, Zhang, Mengzhou, Yang, Cheng, and Liu, Yijin

Subjects

*BIOMARKERS, *AURORA kinases, *SMALL interfering RNA, *PEARSON correlation (Statistics), *GENE expression

Abstract

Cuproptosis and ferroptosis represent copper- and iron-dependent forms of cell death, respectively, and both are known to play pivotal roles in head and neck squamous cell carcinoma (HNSCC). However, few studies have explored the prognostic signatures related to cuproptosis and ferroptosis in HNSCC. Our objective was to construct a prognostic model based on genes associated with cuproptosis and ferroptosis. We randomly assigned 502 HSNCC samples from The Cancer Genome Atlas (TCGA) into training and testing sets. Pearson correlation analysis was utilized to identify cuproptosis-associated ferroptosis genes in the training set. Cox proportional hazards (COX) regression and least absolute shrinkage operator (LASSO) were employed to construct the prognostic model. The performance of the prognostic model was internally validated using single-factor COX regression, multifactor COX regression, Kaplan–Meier analysis, principal component analysis (PCA), and receiver operating curve (ROC) analysis. Additionally, we obtained 97 samples from the Gene Expression Omnibus (GEO) database for external validation. The constructed model, based on 12 cuproptosis-associated ferroptosis genes, proved to be an independent predictor of HNSCC prognosis. Among these genes, the increased expression of aurora kinase A (AURKA) has been implicated in various cancers. To further investigate, we employed small interfering RNAs (siRNAs) to knock down AURKA expression and conducted functional experiments. The results demonstrated that AURKA knockdown significantly inhibited the proliferation and migration of HNSCC cells (Cal27 and CNE2). Therefore, AURKA may serve as a potential biomarker in HNSCC. [ABSTRACT FROM AUTHOR]

Published

2024

39. Regulation of Molecular Biomarkers Associated with the Progression of Prostate Cancer.

Author

Martin-Caraballo, Miguel

Subjects

*ANDROGEN receptors, *PROSTATE cancer, *CASTRATION-resistant prostate cancer, *CANCER cell growth, *AURORA kinases, *BIOMARKERS

Abstract

Androgen receptor signaling regulates the normal and pathological growth of the prostate. In particular, the growth and survival of prostate cancer cells is initially dependent on androgen receptor signaling. Exposure to androgen deprivation therapy leads to the development of castration-resistant prostate cancer. There is a multitude of molecular and cellular changes that occur in prostate tumor cells, including the expression of neuroendocrine features and various biomarkers, which promotes the switch of cancer cells to androgen-independent growth. These biomarkers include transcription factors (TP53, REST, BRN2, INSM1, c-Myc), signaling molecules (PTEN, Aurora kinases, retinoblastoma tumor suppressor, calcium-binding proteins), and receptors (glucocorticoid, androgen receptor-variant 7), among others. It is believed that genetic modifications, therapeutic treatments, and changes in the tumor microenvironment are contributing factors to the progression of prostate cancers with significant heterogeneity in their phenotypic characteristics. However, it is not well understood how these phenotypic characteristics and molecular modifications arise under specific treatment conditions. In this work, we summarize some of the most important molecular changes associated with the progression of prostate cancers and we describe some of the factors involved in these cellular processes. [ABSTRACT FROM AUTHOR]

Published

2024

40. Exploring the anticancer potential of fluoro flavone analogues: insights from molecular docking and dynamics studies with Aurora Kinase B.

Author

Singh, Ipsa A., Lokhande, Kiran Bharat, and Swamy, K. Venkateswara

Subjects

*AURORA kinases, *FLAVONES, *MOLECULAR docking, *MOLECULAR dynamics, *LEAD compounds, *CELL division

Abstract

Aurora Kinase B belongs to the serine kinase family. It plays an essential role in cell division and participates in mitosis and chromatid segregation. Overexpression, polymorphism, and splicing variants in the protein lead to tumorigenesis, leading to cancer. Flavones belong to the class of flavonoids and are derived from plants and show anti-cancer activities. Fluoro flavones and their analogs are taken from the PubChem database, resulting in 3882 compounds which is 90% similar to the fluoro flavones. Lipinski's rule of five, REOS and PAINS drug-like filters were applied which resulted 2448 compounds. These compounds are docked with Aurora Kinase B using SP and XP modules of Glide software. The best binding scores for SP docking were − 9.153 kcal/mol for the compound with CID: 44298667, and XP docking was − 10.287 kcal/mol with CID: 101664315. Enrichment calculations were done using Aurora Kinase B's decoys to validate the docking result. The resulting R2 = 0.96 from enrichment calculations suggests that the docking protocol is valid. The SP and XP docking lead compounds and the Fluoro flavone were subjected to 100 ns MD simulation to probe the protein–ligand complex stability. Also, the binding free energies between the Aurora kinase B and lead compounds were computed by Prime MM/GBSA module. The result suggests that the lead compounds bind more strongly with Aurora Kinase B than the Fluoro flavone. These lead compounds can be further evaluated in vitro and in vivo and can be used as future novel drugs for the curation of cancer. [ABSTRACT FROM AUTHOR]

Published

2024

41. Centrosomes and associated proteins in pathogenesis and treatment of breast cancer.

Author

Athwal, Harjot, Kochiyanil, Arpitha, Bhat, Vasudeva, Allan, Alison L., and Parsyan, Armen

Subjects

BREAST cancer, AURORA kinases, POLO-like kinases, CENTROSOMES, CYCLIN-dependent kinases, CANCER cell growth

Abstract

Breast cancer is the most prevalent malignancy among women worldwide. Despite significant advances in treatment, it remains one of the leading causes of female mortality. The inability to effectively treat advanced and/or treatmentresistant breast cancer demonstrates the need to develop novel treatment strategies and targeted therapies. Centrosomes and their associated proteins have been shown to play key roles in the pathogenesis of breast cancer and thus represent promising targets for drug and biomarker development. Centrosomes are fundamental cellular structures in the mammalian cell that are responsible for error-free execution of cell division. Centrosome amplification and aberrant expression of its associated proteins such as Polo-like kinases (PLKs), Aurora kinases (AURKs) and Cyclin-dependent kinases (CDKs) have been observed in various cancers, including breast cancer. These aberrations in breast cancer are thought to cause improper chromosomal segregation during mitosis, leading to chromosomal instability and uncontrolled cell division, allowing cancer cells to acquire new genetic changes that result in evasion of cell death and the promotion of tumor formation. Various chemical compounds developed against PLKs and AURKs have shown meaningful antitumorigenic effects in breast cancer cells in vitro and in vivo. The mechanism of action of these inhibitors is likely related to exacerbation of numerical genomic instability, such as aneuploidy or polyploidy. Furthermore, growing evidence demonstrates enhanced antitumorigenic effects when inhibitors specific to centrosome-associated proteins are used in combination with either radiation or chemotherapy drugs in breast cancer. This review focuses on the current knowledge regarding the roles of centrosome and centrosome-associated proteins in breast cancer pathogenesis and their utility as novel targets for breast cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

42. Dynamic localization of the chromosomal passenger complex in trypanosomes is controlled by the orphan kinesins KIN-A and KIN-B.

Author

Ballmer, Daniel and Akiyoshi, Bungo

Subjects

*AURORA kinases, *AFRICAN trypanosomiasis, *TRYPANOSOMA, *SURVIVIN (Protein), *ORPHANS, *CELL division

Abstract

The chromosomal passenger complex (CPC) is an important regulator of cell division, which shows dynamic subcellular localization throughout mitosis, including kinetochores and the spindle midzone. In traditional model eukaryotes such as yeasts and humans, the CPC consists of the catalytic subunit Aurora B kinase, its activator INCENP, and the localization module proteins Borealin and Survivin. Intriguingly, Aurora B and INCENP as well as their localization pattern are conserved in kinetoplastids, an evolutionarily divergent group of eukaryotes that possess unique kinetochore proteins and lack homologs of Borealin or Survivin. It is not understood how the kinetoplastid CPC assembles nor how it is targeted to its subcellular destinations during the cell cycle. Here, we identify two orphan kinesins, KIN-A and KIN-B, as bona fide CPC proteins in Trypanosoma brucei, the kinetoplastid parasite that causes African sleeping sickness. KIN-A and KIN-B form a scaffold for the assembly of the remaining CPC subunits. We show that the C-terminal unstructured tail of KIN-A interacts with the KKT8 complex at kinetochores, while its N-terminal motor domain promotes CPC translocation to spindle microtubules. Thus, the KIN-A:KIN-B complex constitutes a unique 'twoin- one' CPC localization module, which directs the CPC to kinetochores from S phase until metaphase and to the central spindle in anaphase. Our findings highlight the evolutionary diversity of CPC proteins and raise the possibility that kinesins may have served as the original transport vehicles for Aurora kinases in early eukaryotes. [ABSTRACT FROM AUTHOR]

Published

2024

43. Inhibition of NFAT5‐Dependent Astrocyte Swelling Alleviates Neuropathic Pain.

Author

He, Liqiong, Ma, Shengyun, Ding, Zijin, Huang, Zhifeng, Zhang, Yu, Xi, Caiyun, Zou, Kailu, Deng, Qingwei, Huang, Wendy Jia Men, Guo, Qulian, and Huang, Changsheng

Subjects

*NEURALGIA, *NUCLEAR factor of activated T-cells, *AURORA kinases, *PROTEIN stability, *EDEMA

Abstract

Astrocyte swelling is implicated in various neurological disorders. However, whether astrocyte swelling contributes to neuropathic pain remains elusive. This study elucidates the pivotal role of the nuclear factor of activated T‐cells 5 (NFAT5) emerges as a master regulator of astrocyte swelling in the spinal dorsal horn (SDH) during neuropathic pain. Despite the ubiquitous expression of NFAT5 protein in SDH cell types, it selectively induces swelling specifically in astrocytes, not in microglia. Mechanistically, NFAT5 directly controls the expression of the water channel aquaporin‐4 (AQP4), a key regulator exclusive to astrocytes. Additionally, aurora kinase B (AURKB) orchestrates NFAT5 phosphorylation, enhancing its protein stability and nuclear translocation, thereby regulating AQP4 expression. The findings establish NFAT5 as a crucial regulator for neuropathic pain through the modulation of astrocyte swelling. The AURKB‐NFAT5‐AQP4 pathway in astrocytes emerges as a potential therapeutic target to combat neuropathic pain. [ABSTRACT FROM AUTHOR]

Published

2024

44. New Epigenetic Modifier Inhibitors Enhance Microspore Embryogenesis in Bread Wheat.

Author

Valero-Rubira, Isabel, Vallés, María Pilar, Echávarri, Begoña, Fustero, Patricia, Costar, María Asunción, and Castillo, Ana María

Subjects

AURORA kinases, BREAD, EPIGENETICS, EMBRYOLOGY, WHEAT, CULTIVARS, HISTONE deacetylase inhibitors, WINTER wheat

Abstract

The use of doubled haploid (DH) technology enables the development of new varieties of plants in less time than traditional breeding methods. In microspore embryogenesis (ME), stress treatment triggers microspores towards an embryogenic pathway, resulting in the production of DH plants. Epigenetic modifiers have been successfully used to increase ME efficiency in a number of crops. In wheat, only the histone deacetylase inhibitor trichostatin A (TSA) has been shown to be effective. In this study, inhibitors of epigenetic modifiers acting on histone methylation (chaetocin and CARM1 inhibitor) and histone phosphorylation (aurora kinase inhibitor II (AUKI-II) and hesperadin) were screened to determine their potential in ME induction in high- and mid-low-responding cultivars. The use of chaetocin and AUKI-II resulted in a higher percentage of embryogenic structures than controls in both cultivars, but only AUKI-II was superior to TSA. In order to evaluate the potential of AUKI-II in terms of increasing the number of green DH plants, short and long application strategies were tested during the mannitol stress treatment. The application of 0.8 µM AUKI-II during a long stress treatment resulted in a higher percentage of chromosome doubling compared to control DMSO in both cultivars. This concentration produced 33% more green DH plants than the control in the mid-low-responding cultivar, but did not affect the final ME efficiency in a high-responding cultivar. This study has identified new epigenetic modifiers whose use could be promising for increasing the efficiency of other systems that require cellular reprogramming. [ABSTRACT FROM AUTHOR]

Published

2024

45. Correction: Aurora kinase targeting in lung cancer reduces KRAS-induced transformation.

Author

dos Santos, Edmilson Ozorio, Carneiro-Lobo, Tatiana Correa, Aoki, Mateus Nobrega, Levantini, Elena, and Bassères, Daniela Sanchez

Subjects

*AURORA kinases, *LUNG cancer, *GENTIAN violet

Abstract

This document is a correction notice for an article titled "Aurora kinase targeting in lung cancer reduces KRAS-induced transformation" published in the journal Molecular Cancer. The authors have identified an error in Figure 1f of the original article. The correction provides the correct and incorrect figures, along with a detailed description of the experiments and results. The correction was authored by Edmilson Ozorio dos Santos, Tatiana Correa Carneiro-Lobo, Mateus Nobrega Aoki, Elena Levantini, and Daniela Sanchez Bassères. [Extracted from the article]

Published

2024

46. eEF1A2 promotes PTEN-GSK3β-SCF complex-dependent degradation of Aurora kinase A and is inactivated in breast cancer.

Author

Treekitkarnmongkol, Warapen, Solis, Luisa M., Sankaran, Deivendran, Gagea, Mihai, Singh, Pankaj K., Mistry, Ragini, Nguyen, Tristian, Kai, Kazuharu, Liu, Jiajun, Sasai, Kaori, Jitsumori, Yoshimi, Liu, Jianwen, Nagao, Norio, Stossi, Fabio, Mancini, Michael A., Wistuba, Ignacio I., Thompson, Alastair M., Lee, Jonathan M., Cadiñanos, Juan, and Wong, Kwong-Kwok

Subjects

AURORA kinases, BREAST cancer, CANCER cell culture, CANCER cell proliferation, TUMOR growth

Abstract

The translation elongation factor eEF1A promotes protein synthesis. Its methylation by METTL13 increases its activity, supporting tumor growth. However, in some cancers, a high abundance of eEF1A isoforms is associated with a good prognosis. Here, we found that eEF1A2 exhibited oncogenic or tumor-suppressor functions depending on its interaction with METTL13 or the phosphatase PTEN, respectively. METTL13 and PTEN competed for interaction with eEF1A2 in the same structural domain. PTEN-bound eEF1A2 promoted the ubiquitination and degradation of the mitosis-promoting Aurora kinase A in the S and G2 phases of the cell cycle. eEF1A2 bridged the interactions between the SKP1-CUL1-FBXW7 (SCF) ubiquitin ligase complex, the kinase GSK3β, and Aurora-A, thereby facilitating the phosphorylation of Aurora-A in a degron site that was recognized by FBXW7. Genetic ablation of Eef1a2 or Pten in mice resulted in a greater abundance of Aurora-A and increased cell cycling in mammary tumors, which was corroborated in breast cancer tissues from patients. Reactivating this pathway using fimepinostat, which relieves inhibitory signaling directed at PTEN and increases FBXW7 expression, combined with inhibiting Aurora-A with alisertib, suppressed breast cancer cell proliferation in culture and tumor growth in vivo. The findings demonstrate a therapeutically exploitable, tumor-suppressive role for eEF1A2 in breast cancer. Editor's summary: Isoforms of the protein synthesis factor eEF1A can either promote or suppress tumor growth. Treekitkarnmongkol et al. found that eEF1A2 teams up with the tumor suppressor PTEN to repress cell cycling. The interaction between eEF1A2 and PTEN resulted in the assembly of a complex of the kinase GSK3β, the mitotic kinase Aurora-A, and the ubiquitin ligase complex SCF in the pre-mitotic phases of the cell cycle. Phosphorylation at a specific site by GSK3β marked Aurora-A for degradation by the SCF complex, reducing progression through mitosis. Accordingly, Aurora-A was more stable and abundant in PTEN-deficient breast cancers, which showed increased proliferation. A two-drug combination that derepressed PTEN and inhibited Aurora-A suppressed tumor growth in mice, suggesting a potential treatment strategy for patients with PTEN-deficient breast tumors. —Leslie K. Ferrarelli [ABSTRACT FROM AUTHOR]

Published

2024

47. Store-operated calcium entry inhibits primary ciliogenesis via the activation of Aurora A.

Author

Yi-Shyun Lai, Ta-Wei Chan, Thi My Hang Nguyen, Tzu-Chien Lin, Yu-Ying Chao, Chia-Yih Wang, Liang-Yi Hung, Shaw-Jenq Tsai, and Wen-Tai Chiu

Subjects

*CILIA & ciliary motion, *CALCIUM ions, *CALCIUM channels, *AURORA kinases, *CALCIUM, *BLUE light, *EXTRACELLULAR space

Abstract

The primary cilium is an antenna-like organelle protruding from the cell surface that can detect physical and chemical stimuli in the extracellular space to activate specific signaling pathways and downstream gene expressions. Calcium ion (Ca2+) signaling regulates a wide spectrum of cellular processes, including fertilization, proliferation, differentiation, muscle contraction, migration, and death. This study investigated the effects of the regulation of cytosolic Ca2+ levels on ciliogenesis using chemical, genetic, and optogenetic approaches. We found that ionomycin-induced Ca2+ influx inhibited ciliogenesis and Ca2+ chelator BATPA-AM-induced Ca2+ depletion promoted ciliogenesis. In addition, store-operated Ca2+ entry and the endoplasmic reticulum Ca2+ sensor stromal interaction molecule 1 (STIM1) negatively regulated ciliogenesis. Moreover, an optogenetic platform was used to create different Ca2+ oscillation patterns by manipulating lighting parameters, including density, frequency, exposure time, and duration. Light-activated Ca2+-translocating channelrhodopsin (CatCh) is activated by 470-nm blue light to induce Ca2+ influx. Our results show that highfrequency Ca2+ oscillations decrease ciliogenesis. Furthermore, the inhibition of cilia formation induced by Ca2+ may occur via the activation of Aurora kinase A. Cilia not only induce Ca2+ signaling but also regulate cilia formation by Ca2+ signaling. [ABSTRACT FROM AUTHOR]

Published

2024

48. Polo-like kinase 1 regulates immune synapse assembly and cytotoxic T cell function by driving microtubule dynamics.

Author

Zevolini, Fabrizia, Onnis, Anna, Khazen, Roxana, Müller, Sabina, Marotta, Giuseppe, Valitutti, Salvatore, Finetti, Francesca, and Baldari, Cosima T.

Subjects

*CYTOTOXIC T cells, *CELL physiology, *MICROTUBULES, *SYNAPSES, *AURORA kinases, *GRANULE cells

Abstract

Elimination of virally infected or tumoral cells is mediated by cytotoxic T cells (CTL). Upon antigen recognition, CTLs assemble a specialized signaling and secretory domain at the interface with their target, the immune synapse (IS). During IS formation, CTLs acquire a transient polarity, marked by re-orientation of the centrosome and microtubule cytoskeleton toward the IS, thus directing the transport and delivery of the lytic granules to the target cell. Based on the implication that the kinase Aurora A has a role in CTL function, we hypothesized that its substrate, the mitotic regulator Polo-like kinase 1 (PLK1), might participate in CTL IS assembly. We demonstrate that PLK1 is phosphorylated upon TCR triggering and polarizes to the IS. PLK1 silencing or inhibition results in impaired IS assembly and function, as witnessed by defective synaptic accumulation of T cell receptors (TCRs), as well as compromised centrosome and lytic granule polarization to the IS, resulting in impaired target cell killing. This function is achieved by coupling early signaling to microtubule dynamics, a function pivotal for CTL-mediated cytotoxicity. These results identify PLK1 as a new player in CTL IS assembly and function. [ABSTRACT FROM AUTHOR]

Published

2024

49. Revisiting Aurora Kinase B: A promising therapeutic target for cancer therapy.

Author

Lakkaniga, Naga Rajiv, Wang, Zhengyu, Xiao, Yao, Kharbanda, Anupreet, Lan, Li, and Li, Hong‐yu

Subjects

AURORA kinases, CANCER treatment, TRIPLE-negative breast cancer

Abstract

Cancer continues to be a major health concern globally, although the advent of targeted therapy has revolutionized treatment options. Aurora Kinase B is a serine‐threonine kinase that has been explored as an oncology therapeutic target for more than two decades. Aurora Kinase B inhibitors show promising biological results in in‐vitro and in‐vivo experiments. However, there are no inhibitors approved yet for clinical use, primarily because of the side effects associated with Aurora B inhibitors. Several studies demonstrate that Aurora B inhibitors show excellent synergy with various chemotherapeutic agents, radiation therapy, and targeted therapies. This makes it an excellent choice as an adjuvant therapy to first‐line therapies, which greatly improves the therapeutic window and side effect profile. Recent studies indicate the role of Aurora B in some deadly cancers with limited therapeutic options, like triple‐negative breast cancer and glioblastoma. Herein, we review the latest developments in Aurora Kinase B targeted research, with emphasis on its potential as an adjuvant therapy and its role in some of the most difficult‐to‐treat cancers. [ABSTRACT FROM AUTHOR]

Published

2024

50. Male meiotic spindle poles are stabilized by TACC3 and cKAP5/chTOG differently from female meiotic or somatic mitotic spindles in mice.

Author

Simerly, Calvin, Robertson, Emily, Harrison, Caleb, Ward, Sydney, George, Charlize, Deleon, Jasmine, Hartnett, Carrie, and Schatten, Gerald

Subjects

*SPINDLE apparatus, *MICROTUBULES, *COLON tumors, *AURORA kinases, *KINETOCHORE, *CYTOSKELETON

Abstract

Transforming acidic acid coiled-coil protein 3 (TACC3) and cytoskeleton associated protein 5 (cKAP5; or colonic hepatic tumor overexpressed gene, chTOG) are vital for spindle assembly and stabilization initiated through TACC3 Aurora-A kinase interaction. Here, TACC3 and cKAP5/chTOG localization with monospecific antibodies is investigated in eGFP-centrin-2- expressing mouse meiotic spermatocytes. Both proteins bind spermatocyte spindle poles but neither kinetochore nor interpolar microtubules, unlike in mitotic mouse fibroblasts or female meiotic oocyte spindles. Spermatocytes do not display a liquid-like spindle domain (LISD), although fusing them into maturing oocytes generates LISD-like TACC3 condensates around sperm chromatin but sparse microtubule assembly. Microtubule inhibitors do not reduce TACC3 and cKAP5/chTOG spindle pole binding. MLN 8237 Aurora-A kinase inhibitor removes TACC3, not cKAP5/chTOG, disrupting spindle organization, chromosome alignment, and impacting spindle pole γ-tubulin intensity. The LISD disruptor 1,6-hexanediol abolished TACC3 in spermatocytes, impacting spindle bipolarity and chromosome organization. Cold microtubule disassembly and rescue experiments in the presence of 1,6-hexanediol reinforce the concept that spermatocyte TACC3 spindle pole presence is not required for spindle pole microtubule assembly. Collectively, meiotic spermatocytes without a LISD localize TACC3 and cKAP5/chTOG exclusively at spindle poles to support meiotic spindle pole stabilization during male meiosis, different from either female meiosis or mitosis. [ABSTRACT FROM AUTHOR]

Published

2024